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43 results on '"Cheng, Renjie"'

1. MSW-Transformer: Multi-Scale Shifted Windows Transformer Networks for 12-Lead ECG Classification

Author

Cheng, Renjie, Zhuang, Zhemin, Zhuang, Shuxin, Xie, Lei, and Guo, Jingfeng

Subjects
Electrical Engineering and Systems Science - Signal Processing, Computer Science - Machine Learning
Abstract

Automatic classification of electrocardiogram (ECG) signals plays a crucial role in the early prevention and diagnosis of cardiovascular diseases. While ECG signals can be used for the diagnosis of various diseases, their pathological characteristics exhibit minimal variations, posing a challenge to automatic classification models. Existing methods primarily utilize convolutional neural networks to extract ECG signal features for classification, which may not fully capture the pathological feature differences of different diseases. Transformer networks have advantages in feature extraction for sequence data, but the complete network is complex and relies on large-scale datasets. To address these challenges, we propose a single-layer Transformer network called Multi-Scale Shifted Windows Transformer Networks (MSW-Transformer), which uses a multi-window sliding attention mechanism at different scales to capture features in different dimensions. The self-attention is restricted to non-overlapping local windows via shifted windows, and different window scales have different receptive fields. A learnable feature fusion method is then proposed to integrate features from different windows to further enhance model performance. Furthermore, we visualize the attention mechanism of the multi-window shifted mechanism to achieve better clinical interpretation in the ECG classification task. The proposed model achieves state-of-the-art performance on five classification tasks of the PTBXL-2020 12-lead ECG dataset, which includes 5 diagnostic superclasses, 23 diagnostic subclasses, 12 rhythm classes, 17 morphology classes, and 44 diagnosis classes, with average macro-F1 scores of 77.85%, 47.57%, 66.13%, 34.60%, and 34.29%, and average sample-F1 scores of 81.26%, 68.27%, 91.32%, 50.07%, and 63.19%, respectively.

Published
2023

2. An efficient Cherenkov oscillator with an independent injection channel for generating phase-controlled super-radiance pulses.

Author

Wang, Jiaoyin, Cheng, Renjie, Wu, Ping, Xiao, Renzhen, Cao, Yibing, Wang, Haiyang, Li, Hao, Zhou, Yihong, Hu, Biao, Zhou, Hao, Chen, Tingxu, Chen, Kun, and Li, Tianming

Subjects
*SUPERRADIANCE, *MAGNETIC fields, *DIODES, *SEEDS, *VOLTAGE, *ELECTRON beams
Abstract

An efficient Cherenkov oscillator with gigawatt phase-controlled super-radiance (SR) pulses is studied for the application of coherent summation systems. To obtain phase-controlled SR pulses, an ultra-short seed pulse is required to be injected into the interaction space from the direction of the collector, which substitutes the impact of the spontaneous emission from the front edge of the electron beam. It means that, for a conventional Cherenkov oscillator, the injection seed pulse and output gigawatt SR pulse need to share the same channel. Therefore, an additional quasi-optical reflection system is needed to separate these two signals. To optimize such a scheme, we introduce a front extractor near the reflector and an injection channel at the side of the collector, allowing the output and injection channels to be independent of each other. Particle-in-cell simulations reveal that as the diode voltage is 260 kV, the beam current is 3.5 kA, and the magnetic field is 0.42 T, a short SR pulse with peak power of 1.93 GW is obtained. The corresponding conversion factor (ratio of average output power and input DC power) is up to 2.12. When the seed pulse has a rise time of 0.3 ns and a width of 0.2 ns injection, the phase of the seed pulse and the initiated SR pulse are closely correlated with the accuracy of 0.17 rad as the power ratio is down to −25 dB. The advantages of high efficiency and phase control make the oscillator a promising device used for the miniaturization and practicability of coherent summation systems. [ABSTRACT FROM AUTHOR]

Published
2024
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5. A Flake Graphite/Titanium Dioxide Composite Cathode for S-Band Relativistic Magnetron

Author

Chen, Tingxu, Yang, Liu, Fu, Hao, Li, Hao, Wang, Haiyang, Hu, Biao, Cheng, Renjie, Liu, Sidi, and Li, Tianming

Abstract

As a source of intense current electron beams, the explosive electron emission cathode has long been the key component of relativistic magnetrons (RMs). However, its application has been hampered by significant limitations: pulse shortening due to plasma expansion and microwave power degradation stemming from emission defects. To mitigate these issues, in this article, a flake graphite/titanium dioxide composite cathode (FTC) with a simple preparation process is proposed. To validate the performance of this cathode, experiments were conducted using a ten-cavity rising-sun relativistic magnetron. The results show that, in comparison to graphite cathodes, the FTC exhibits a remarkable 90% increase in microwave output peak power and a 2-ns extension in pulsewidth. The work in this article aims to provide new ideas for relativistic magnetron cathode design.

Published
2024
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8. A High-Power $S$-Band Waveguide Phase Shifter With Rotary RF Chokes

Author

Cai, Jie, primary, Wang, Jiaoyin, additional, Ou, Meiling, additional, Chen, Tingxu, additional, Cheng, Renjie, additional, Zhou, Hao, additional, Li, Hao, additional, Wang, Haiyang, additional, Zhou, Yihong, additional, Ghannouchi, Fadhel M., additional, Hu, Biao, additional, and Li, Tianming, additional

Published
2024
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13. Study of cathode emission surface defects in relativistic magnetrons.

Author

Chen, Tingxu, Li, Tianming, Li, Hao, Wang, Haiyang, Cheng, Renjie, Zhou, Hao, Hu, Biao, and Fu, Hao

Subjects
SURFACE defects, CATHODES, MAGNETRONS
Abstract

The cathode emission surface (CSD) defect is one of the main reasons for the performance difference in relativistic magnetron multiple pulses operation, but its impact mechanism is unclear. In this work, the kinetics model and the particle in a cell method were used to explain the influence of the emission defect effect. The results indicate that the CSD effect causes deformation of the electron sheath and reduces the current. The emission defects in the azimuthal direction − π / 2 < n φ * < π / 2 region favor the electron bunching. Moreover, the emission defects on the cathode side near the accelerator in the axial direction weaken the axial drift issues. Our work will provide a basis for the large-area cathode design and facilitate the relativistic magnetron experimental analysis. [ABSTRACT FROM AUTHOR]

Published
2024
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14. Highly efficient superradiant oscillator with front-extraction output in TE11 mode operating at low magnetic field.

Author

Wang, Jiaoyin, Li, Tianming, Cheng, Renjie, Wu, Ping, Xiao, Renzhen, Cao, Yibing, Wang, Haiyang, Li, Hao, Zhou, Yihong, and Hu, Biao

Subjects
MAGNETIC fields, SLOW wave structures, BACKWARD wave oscillators, RELATIVISTIC electron beams, MICROWAVE power transmission, ELECTRON beams, OCEAN wave power, WAVEGUIDES
Abstract

With a low guiding magnetic field, a highly efficient X-band coaxial superradiant relativistic backward wave oscillator (SR-RBWO) with a front-extraction cavity and a built-in mode converter is proposed in this paper. The coaxial structure is used to reduce the guiding magnetic field of the intense relativistic electron beam. To decrease the transmission loss of microwave power in the slow wave structure (SWS), a front-extraction cavity is introduced. The inner conductor of the coaxial SWS is hollowed out as the output waveguide, and then, the microwave is extracted by the front-extraction cavity and enters the hollow waveguide rather than re-enter the SWS to output. With this improvement, the power conversion factor K can be increased by 0.44 even more. Making use of the feature of longer SWSs of SR-RBWOs, a built-in mode converter is designed, which can convert the circular TM01 mode propagating in the output waveguide into the circular TE11 radiation mode that can be radiated into free space directly. Therefore, the length of the radiation system can be reduced significantly, which is beneficial to the miniaturization of the entire high-power microwave system. Particle-in-cell simulation demonstrates that with a diode voltage of 180 kV and a guiding magnetic field of 0.37 T, the output SR pulse with an average power of 1.00 GW corresponding to power conversion factor K = 1.8 can be obtained. [ABSTRACT FROM AUTHOR]

Published
2024
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16. Asymmetric Mode Competition in an X-Band Dual-Mode Relativistic Backward Wave Oscillator

Author

Chen, Kun, Xiao, Renzhen, Zhai, Yonggui, Shi, Yanchao, Miao, Tianze, Gui, Youyou, Wang, Junqing, An, Chenxiang, Huo, Shaofei, Yang, Yihang, Wang, Jiaoyin, and Cheng, Renjie

Abstract

The initial experimental results of asymmetric mode competition in an X-band dual-mode relativistic backward wave oscillator (RBWO) operating at the low magnetic field are presented. In the experiment, the use of receiving antennas with different polarization directions allows direct determination of asymmetric mode, and the asymmetric mode with a frequency of 10.27 GHz is excited, which is in good agreement with the particle-in-cell (PIC) simulation results. Judging from that, the competition mode is asymmetric EH21 mode. The asymmetric mode competition mechanism in the device is investigated theoretically. It is shown that the drift length plays a key role in the suppression and excitation of the asymmetric mode, validated by the experiment and the PIC simulation.

Published
2024
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17. Analysis and Design of TM01 and TE01 High-Power Handling Corrugated Flexible Waveguides

Author

Ou, Meiling, Liu, Dagang, Wang, Haiyang, Li, Tianming, Zhou, Yihong, Wu, Xinlei, Yang, Mingyu, Cheng, Renjie, Ghannouchi, Fadhel M., Hu, Biao, and Li, Hao

Abstract

The purpose of this article is to solve the issue that current high-power microwave (HPM) transmission links are used in the rigid metal waveguide, which causes significant installation difficulties to the system integration. In this article, we design the TM01 and TE01 high-power handling corrugated flexible waveguides using a numerical analysis method based on coupled wave theory. The measured results are in good agreement with the numerical calculation method. The designed TM01 corrugated flexible waveguide has a transmission efficiency of up to 98% at bending angles less than ±5°, and correspondingly, the TE01 corrugated flexible waveguide has a transmission efficiency of up to 98% at bending angles less than ±8°. The designed flexible waveguides are all capable of power capacities of more than 3 GW.

Published
2024
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18. A Cross-Band High-Power Microwave Generator With Wide Frequency Tunability Based on a Relativistic Magnetron and a Radial Transit-Time Oscillator

Author

Xiao, Renzhen, Cheng, Renjie, Chen, Kun, Wang, Jiaoyin, and Shi, Yanchao

Abstract

We propose a novel cross-band high-power microwave (HPM) generator which is based on the relativistic magnetron (RM) with all cavity axial extraction and the radial three-cavity transit-time oscillator (TTO). A foil structure is used to isolate the output microwaves of the RM and the TTO. A regulating ring is introduced before the anode block of the RM to adjust the resonant frequency of the RM. A downstream endcap is added to collect the leakage current from the RM and delay the decrease in the output power. The particle-in-cell simulations show that as the diode voltage is 420 kV, the diode current is 11.4 kA, and the magnetic field is 0.22 T, an output power of 680 MW at the L-band from the RM and 1280 MW at the S-band from the TTO have been achieved, with a total beam–wave conversion efficiency of 41%. Moreover, the RM frequency ranges for about 10% by adjusting the position of the regulating ring, and the TTO frequency bandwidth is up to 68%, which covers the S- and C-band, by changing the cavity width of the radial TTO axially.

Published
2024
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19. An Efficient Low-Magnetic-Field-Operation Superradiant Relativistic Backward-Wave Oscillator With Front Extraction Structure

Author

Cheng, Renjie, primary, Wu, Ping, additional, Li, Tianming, additional, Wang, Jiaoyin, additional, Zhang, Guangshuai, additional, Sun, Jun, additional, Wang, Haiyang, additional, Li, Hao, additional, Zhou, Yihong, additional, Yang, Mingyu, additional, Ou, Meiling, additional, Ghannouchi, Fadhel M., additional, and Hu, Biao, additional

Published
2023
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25. Phase-Locked All-Cavity-Extraction Relativistic Magnetrons With Azimuth-Uniform Coupling Structure for Coherent Combining Applications

Author

Cheng, Renjie, Xiao, Renzhen, Li, Tianming, Wang, Jiaoyin, He, Chaoxiong, Wang, Haiyang, Li, Hao, Zhou, Yihong, Yang, Mingyu, Ou, Meiling, Chen, Tingxu, Ghannouchi, Fadhel M., and Hu, Biao

Abstract

An investigation on the phase locking of S-band relativistic magnetrons with an all-cavity-extraction (ACE-RM) structure is carried out. In order not to disrupt the periodic distribution of electric fields in the resonant cavities, an azimuth-uniform coupling structure is introduced, which could achieve a transmission efficiency of over 98% at the operating frequency, with an amplitude difference of only ±3.3%. Furthermore, particle-in-cell (PIC) simulations demonstrate that when five ACE RMs are interconnected through four such coupling structures, phase locking can be achieved, and the relative phase jitters are controlled within ±1%. After establishing stable $\pi $ -mode oscillation in RMs, in each of the 20 ports, an average output power of over 400 MW can be obtained, corresponding to a total power of 8.5 GW and a power conversion efficiency of 45%.

Published
2023
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27. Parallel-Pumped Spin-Wave Instability Threshold Characteristics in Polycrystalline Yttrium Iron Garnet Excited by the Varied Rising-Edge Microwave Pulses

Author

Yang, Mingyu, primary, Yang, Tao, additional, Wang, Haiyang, additional, Ghannouchi, Fadhel M., additional, Li, Hao, additional, Li, Tianming, additional, Zhou, Yihong, additional, Cheng, Renjie, additional, Ou, Meiling, additional, Liu, Xianqing, additional, Hu, Yibin, additional, and Hu, Biao, additional

Published
2022
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29. Parallel-Pumped Spin-Wave Instability Threshold Characteristics in Polycrystalline Yttrium Iron Garnet Excited by the Varied Rising-Edge Microwave Pulses

Author

Yang, Mingyu, Yang, Tao, Wang, Haiyang, Ghannouchi, Fadhel M., Li, Hao, Li, Tianming, Zhou, Yihong, Cheng, Renjie, Ou, Meiling, Liu, Xianqing, Hu, Yibin, and Hu, Biao

Abstract

The parallel-pumped spin-wave instability (SWI) threshold power, $P_{\mathrm {th}}$ , of polycrystalline yttrium iron garnet (YIG) excited by microwave pulses with the varied rising-edge time was investigated theoretically and experimentally. The SWI threshold model associated with the rising-edge time $t_{r}$ is developed in terms of the attributes of half-frequency spin waves in the applied static fields $H_{\mathrm {ext}}$ . The results manifest a significant increase in microwave-excited SWI threshold power level when the rising-edge time $t_{r}$ is shortened from 600 to 100 ns at the X-band. In addition, the rising-edge microwave pulses with different time scale distinctly present different threshold responses under the left-wing field region of the butterfly curves. The SWI thresholds associated with the spin-wave initial amplitude grow with increasing $H_{\mathrm {ext}}$ when $t_{r}$ is smaller than the spin-wave relaxation time ( $t_{r}~ \boldsymbol {\le }~200$ ns), while SWI thresholds are more sensitive to the $k$ -dependent spin-wave linewidth, which decreases with the increasing $H_{\mathrm {ext}}$ as $t_{r}$ exceeds the spin-wave relaxation time ( $t_{r} ~ \boldsymbol {\ge }~400$ ns). The calculated responses of the SWI threshold are in close agreement with the measurements.

Published
2023
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38. Analysis of lower limb injury mechanism of an average Chinese pedestrian lower limb FE model in lateral impact

Author

Cheng Renjie, Fengchong Lan, Jiqing Chen, and Yunjao Zhou

Subjects
business.industry, Biomechanics, Poison control, Structural engineering, Pedestrian, Collision, Lower limb, Mechanism (engineering), Cushion, Automotive Engineering, Fe model, business, human activities, Geology
Abstract

According to the statistics, lower limb injuries are the second most frequent region of traffic injuries. For the in-depth study of the biomechanical response and injury mechanism of pedestrian lower limb, the pedestrian lower limb biomechanical Finite Element (FE) model with high biological fidelity was developed and verified. By applying the proposed model, simulation studies were conducted to investigate pedestrian lower limb dynamic responses and injuries under different bumper foam filling structures and bumper collision heights during lateral impact. Simulation results demonstrated that filling the cushion foam between the bumper cover and the anti-collision beam can effectively reduce the injury index of pedestrian's lower limbs, and the trapezoidal foam structure gives better protection effect. In addition, appropriately lowering the bumper collision height can improve the car's friendliness to pedestrian's lower limbs.

Published
2020

39. Erratum: "Study of cathode emission surface defects in relativistic magnetrons" [Phys. Plasmas 31, 023502 (2024)].

Author

Chen, Tingxu, Li, Tianming, Li, Hao, Wang, Haiyang, Cheng, Renjie, Zhou, Hao, Hu, Biao, and Fu, Hao

Subjects
SURFACE defects, CATHODES, MAGNETRONS
Abstract

This document is an erratum for the article titled "Study of cathode emission surface defects in relativistic magnetrons" published in the journal Physics of Plasmas. The erratum corrects three writing errors in the original paper, specifically in the abstract and on pages 3 and 8. These errors are related to mathematical equations and have no impact on the rest of the paper. The authors of the original article are Tingxu Chen, Tianming Li, Hao Li, Haiyang Wang, Renjie Cheng, Hao Zhou, Biao Hu, and Hao Fu. [Extracted from the article]

Published
2024
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40. Compact L-Band Relativistic Magnetron With Diffraction Output of TEM Mode.

Author

He, Chaoxiong, Li, Tianming, Cheng, Renjie, Wang, Haiyang, Li, Hao, Zhou, Yihong, Wang, Keqiang, Ghannouchi, Fadhel M., and Hu, Biao

Subjects
GYROTRONS, MAGNETRONS, SLOW wave structures, CAVITY resonators, PHASE velocity, COMPACTING
Abstract

A compact L-band relativistic magnetron (RM) with the diffraction output (DO) of the TEM mode is proposed. In this DO configuration, a ridged circular waveguide is used to replace the cylindrical waveguide to decrease its radial dimension. The RF field of the operating π-mode is extracted from every resonator cavity and guided to the ridged circular waveguide. Even at the operating frequency of 1.55 GHz, the ridged circular waveguide can reduce the cutoff radius of the RF wave to 73 mm. The output RF field is further effectively converted to the TEM mode by a compact mode converter. Moreover, in the resonant system, a 10-cavity rising-sun slow wave structure (SWS) is applied to lower the phase velocity of the operating spatial harmonic and enhance the mode separation between the operating mode and the adjacent mode. The particle-in-cell (PIC) simulations demonstrate that the practical RM could output a relatively pure TEM mode at the frequency of 1.55 GHz, and its total efficiency is up to 60% with gigawatt radiation power for a diode voltage of 400 kV. [ABSTRACT FROM AUTHOR]

Published
2019
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41. A new analysis model for resonant switching converter

Author

Hu Zhihong, Shi Wen, Huang Xiangfu, and Cheng Renjie

Subjects
Engineering, Flowchart, business.industry, Flyback converter, Network decomposition, Transfer function, law.invention, Small-signal model, Computer analysis, Time averaging, law, Electronic engineering, Signal transfer function, business
Abstract

In this paper, a new analysis model-Decomposition Averaging Model (DAM)-is developed based on network decomposition and time averaging. Its small signal model and small signal transfer function are provided. For computer analysis, the flowchart is also provided. Comparation and relationship between this model and other models are discussed. Application of the model on a new resonant converter-clamped ZVS flyback converter is presented. The simulations of the converter based on this model is coherent with experiment results. The verification shows the model correct and efficient.

Published
2002

43. A ZVT quasi-resonant PWM converter for unity power factor application.

Author

Wen Shi, Renjie, Wen Shi, Cheng, Renjie, Liang, Cheng Yung C., and Liang, Yung C.

Subjects
CASCADE converters, SWITCHING circuits
Abstract

Proposes a quasi-resonant PWM converter topology for unity power factor application. Achievement of zero-voltage transition conditions for both the main and auxiliary switching devices; Clamping of the blocking voltage at a relatively low level during off period; Analysis of the operating modes of the converter.

Published
1998

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